US11515759B2 - Brush device, motor, and method for manufacturing brush device - Google Patents
Brush device, motor, and method for manufacturing brush device Download PDFInfo
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- US11515759B2 US11515759B2 US16/957,548 US201916957548A US11515759B2 US 11515759 B2 US11515759 B2 US 11515759B2 US 201916957548 A US201916957548 A US 201916957548A US 11515759 B2 US11515759 B2 US 11515759B2
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- Prior art keywords
- holder
- terminal member
- choke coil
- core
- section
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K5/00—Casings; Enclosures; Supports
- H02K5/04—Casings or enclosures characterised by the shape, form or construction thereof
- H02K5/14—Means for supporting or protecting brushes or brush holders
- H02K5/143—Means for supporting or protecting brushes or brush holders for cooperation with commutators
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K11/00—Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
- H02K11/02—Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for suppression of electromagnetic interference
- H02K11/026—Suppressors associated with brushes, brush holders or their supports
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K15/00—Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
- H02K15/14—Casings; Enclosures; Supports
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K5/00—Casings; Enclosures; Supports
- H02K5/04—Casings or enclosures characterised by the shape, form or construction thereof
- H02K5/14—Means for supporting or protecting brushes or brush holders
- H02K5/143—Means for supporting or protecting brushes or brush holders for cooperation with commutators
- H02K5/148—Slidably supported brushes
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K13/00—Structural associations of current collectors with motors or generators, e.g. brush mounting plates or connections to windings; Disposition of current collectors in motors or generators; Arrangements for improving commutation
Definitions
- the present disclosure relates to a brush device, a motor, and a method for manufacturing a brush device.
- Patent Document 1 describes an example of a conventional brush device that includes a holder (brush holder) to which a brush is coupled.
- the holder includes a choke coil serving as a noise reduction element which is electrically connected to the brush by a terminal member (power feed terminal).
- the choke coil is formed by a winding wound around an outer circumference of a core.
- the core is coupled to the holder so that the longitudinal direction of the core coincides with an axial direction of a motor (armature).
- the brush device disclosed in Patent Document 1 includes a connector to which an external connector is connected.
- a power feed circuit from the connector to the brush includes the choke coil.
- the choke coil includes a first terminal wire extending from one axial end of the choke coil.
- the first terminal wire is connected by a first terminal member to a terminal embedded in the holder (first embedded terminal 44 in Patent Document 1).
- the choke coil includes a second terminal wire extending from the other axial end of the choke coil and connected to a thermistor by a second terminal member.
- Patent Document 1 Japanese Laid-Open Patent Publication No. 2017-169351
- force such as vibration applied to the terminal member may act on a connecting portion of the terminal member and the choke coil (winding) and break the connecting portion.
- a first objective of the present disclosure is to provide a brush device, a motor, and a method for manufacturing a brush device that relieves stress from a connecting portion of a terminal member and a choke coil.
- the terminal which is a part of the power feed circuit that is connected to the first terminal wire of the choke coil
- the second terminal member which is a part in the power feed circuit connected to the second terminal wire of the choke coil
- the part in the power feed circuit that is connected to the first terminal wire of the choke coil refers to a portion that extends from the first terminal wire to the brush.
- the part in the power feed circuit that is connected to the second terminal wire of the choke coil refers to a portion that extends from the second terminal wire to the connector (power feed side).
- parasitic capacitance may be generated between the terminal and the second terminal member.
- noise generated by the brush may bypass the choke coil and flow between the terminal and the second terminal member to the connector (power feed side).
- circuit components of the power feed circuit are inevitably concentrated in a compact motor.
- the noise-bypassing problem described above becomes more noticeable.
- a second objective of the present disclosure is to provide a brush device and a motor that does not allow noise to bypass the choke coil and flow through the part connected to the first terminal wire of the choke coil and the part connected to the second terminal wire of the choke coil.
- a brush device in accordance with a first aspect of the present disclosure includes a holder, a brush, a choke coil, and a terminal member.
- the holder includes a base extending in a direction orthogonal to an axial direction of an armature.
- the brush is coupled to the holder and configured to feed power to a commutator of the armature.
- the choke coil includes a core, which is arranged on the holder, and a winding, which is wound around an outer circumference of the core and electrically connected to the brush.
- the core extends in the axial direction of the armature and includes a first end surface in a longitudinal direction faced toward the base of the holder and a second end surface in the longitudinal direction located at a side opposite to the first end surface.
- the terminal member is coupled to the holder and connected to the winding.
- the terminal member includes a contact portion that is in contact with the second end surface of the core.
- the contact portion of the terminal member is in contact with the end surface of the core of the choke coil. This releases force such as vibration, which is applied to the terminal member, from the contact portion toward the choke coil.
- stress is relieved from the connecting portion of the winding of the choke coil and the terminal member.
- a breakage or the like is limited in the connecting portion of the winding of the choke coil and the terminal member.
- an assembly including the choke coil and the terminal member can be coupled to the holder from the first end surface of the core in its axial direction after the winding of the choke coil and the terminal member are connected to each other.
- a brush device in accordance with a second aspect of the present disclosure includes a brush, a holder, and a power feed circuit.
- the brush is in slidable contact with a commutator of an armature.
- the holder includes a holder main body, which holds the brush, and a connecter, to which an external connector is connected.
- the power feed circuit extends from the connector to the brush.
- the power feed circuit includes a choke coil, a first terminal member, a second terminal member, a first circuit component, and a second circuit component.
- the choke coil is arranged on the holder main body parallel to an axial direction of the armature.
- the first terminal member is connected to a first terminal wire extending from one axial end of the choke coil.
- the second terminal member is connected to a second terminal wire extending from another axial end of the choke coil.
- the first circuit component is connected to a first connecting portion of the first terminal member.
- the second circuit component is connected to a second connecting portion of the second terminal member. As viewed in an axial direction of the choke coil, the first connecting portion and the second connecting portion are located at opposite sides of the choke coil.
- a part that is connected to the first terminal wire of the choke coil (portion from first terminal wire to brush) is spaced apart from a part that is connected to the second terminal wire of the choke coil in the power feed circuit (portion from second terminal wire to connector in power feed circuit).
- the present disclosure in accordance with a third aspect provides a method for manufacturing a brush device.
- the brush device includes a holder, a brush, a choke coil, and a terminal member.
- the holder includes a base extending in a direction orthogonal to an axial direction of an armature.
- the brush is coupled to the holder and configured to feed power to a commutator of the armature.
- the choke coil includes a core, which is arranged on the holder, and a winding, which is wound around an outer circumference of the core and electrically connected to the brush.
- the core extends in the axial direction of the armature and includes a first end surface in a longitudinal direction faced toward the base of the holder and a second end surface located at a side opposite to the first end surface.
- the terminal member is coupled to the holder and connected to the winding.
- the method for manufacturing the brush device includes connecting the winding of the choke coil to the terminal member. Subsequent to the connecting, an assembly including the choke coil and the terminal member is coupled to the holder from the first end surface of the core in its axial direction. In the coupling, the contact portion of the terminal member is brought into contact with the second end surface of the core.
- FIG. 1 is a side view of a motor in accordance with one embodiment
- FIG. 2 is a side view of a brush device in accordance with the embodiment
- FIG. 3 is a side view illustrating a coupling mode of the brush device in accordance with the embodiment
- FIGS. 4A and 4B are diagrams of a first terminal member, a second terminal member, and a choke coil of the embodiment, in which FIG. 4A is a side view as viewed in a Z-axis direction, FIG. 4B is a front view as viewed in a Y-axis direction, and FIG. 4C is a plan view as viewed in an X-axis direction;
- FIG. 5 is a schematic cross-sectional view illustrating a positional relationship of the choke coil and an extension of the second terminal member as viewed in an axial direction (X-axis direction);
- FIGS. 6A to 6C are diagrams of a first terminal member, a second terminal member, and a choke coil of a modified example, in which FIG. 6A is a side view as viewed in the Z-axis direction, FIG. 6B is a front view as viewed in the Y-axis direction, and FIG. 6C is a plan view as viewed in the X-axis direction.
- a motor 10 of the present embodiment in FIG. 1 is a brushed motor.
- the motor 10 is used as, for example, a drive source for an electric seat device of a vehicle.
- the motor 10 includes a motor main body 11 and a reduction gear 12 .
- the motor main body 11 generates rotational force.
- the reduction gear 12 reduces the speed of the rotation output from the motor main body 11 to output high torque.
- the drawings show X-, Y-, and Z-axes, in which the X-axis indicates an axial direction of the motor 10 , the Y-axis indicates a widthwise direction of the motor 10 that is orthogonal to the X-axis, and the Z-axis indicates a thickness-wise direction of the motor 10 that is orthogonal to an XY-plane.
- the motor main body 11 includes a yoke housing 13 that is cylindrical and has a closed bottom.
- the yoke housing 13 includes an open portion 13 a open toward the reduction gear 12 in the X-axis direction.
- the yoke housing 13 includes a flange 13 b extended radially outward from the open portion 13 a .
- the yoke housing 13 has an inner circumferential surface on which field magnets 14 are fixed.
- An armature 15 is rotatably arranged at an inner circumference side of the field magnets 14 .
- the armature 15 includes a rotation shaft 16 at its axial center.
- the rotation shaft 16 includes a basal end (upper end in FIG. 1 ) that is rotatably supported by a bearing 17 , which is coupled to a central portion in the bottom of the yoke housing 13 .
- the armature 15 includes a commutator 18 configured so that brushes 38 of a brush device 30 slide in contact with the commutator 18 .
- the brushes 38 which will be described later, is coupled to the open portion 13 a of the yoke housing 13 .
- the reduction gear 12 includes a gear housing 21 and a reduction gear mechanism 22 accommodated in the gear housing 21 .
- the gear housing 21 is fastened to the flange 13 b of the yoke housing 13 by screws S.
- the reduction gear mechanism 22 includes a worm shaft 24 and a worm wheel 25 .
- the worm shaft 24 is connected by a linking member 23 to a distal end of the rotation shaft 16 , which is extended from the motor main body 11 .
- the worm wheel 25 is meshed with the worm shaft 24 .
- An output unit 26 is arranged in a central portion of the worm wheel 25 .
- the rotation output from the rotation shaft 16 is decelerated by the worm shaft 24 and the worm wheel 25 and output from the output unit 26 .
- the brush device 30 includes a holder 31 mounted on the open portion 13 a of the yoke housing 13 .
- the holder 31 is formed from an insulative resin material.
- the holder 31 includes a holder main body 32 and a connector 33 .
- the holder main body 32 closes the open portion 13 a of the yoke housing 13 .
- the connector 33 is integrally formed with the holder main body 32 .
- the holder main body 32 includes a base 34 and a seal 34 a , which is formed from an elastomer and arranged on a periphery of the base 34 .
- the base 34 extends in a direction orthogonal to the axis of the motor 10 (armature 15 ) (along the YZ-plane).
- the seal 34 a arranged on the periphery of the base 34 is sandwiched by the flange 13 b of the yoke housing 13 and the gear housing 21 in the axial direction (X-axis direction) and seals a gap between the flange 13 b and the gear housing 21 (refer to FIG. 1 ).
- An extension portion 35 extends from the holder main body 32 of the base 34 in the Y-axis direction and includes a distal end at which the connector 33 is formed.
- the holder main body 32 includes a commutator accommodation portion 36 projecting from the base 34 in the axial direction (X-axis direction).
- the commutator accommodation portion 36 is located inside the gear housing 21 to accommodate the commutator 18 .
- the commutator accommodation portion 36 includes a bearing (not shown) that supports the rotation shaft 16 , and the distal end of the rotation shaft 16 is projected axially outward from the commutator accommodation portion 36 .
- the holder main body 32 includes two brush accommodation portions 37 in a peripheral part of the commutator accommodation portion 36 (only one is shown in FIGS. 2 and 3 ).
- the brush accommodation portions 37 are both arranged at one side of the commutator accommodation portion 36 in the Y-axis direction Y (side opposite to extension portion 35 ).
- Each brush accommodation portion 37 accommodates the brush 38 of which the distal end is in slidable contact with an outer surface of the commutator 18 .
- An interval (angle) between the brushes 38 in the circumferential direction is set to 90°.
- an electric component is coupled to the corresponding brush 38 at two ends of the commutator accommodation portion 36 in the Z-axis direction.
- the electric components at the two sides of the commutator accommodation portion 36 have substantially the same basic configuration.
- FIGS. 2 and 3 only show an electric component 40 at one side in the Z-axis direction, and the electric component at the other side is not shown in the drawings and will not be described in detail.
- the electric component 40 includes a first terminal member 41 (first power feed terminal), a second terminal member 42 (second power feed terminal), a choke coil 43 , and a thermistor 44 (electronic component, second circuit component).
- the choke coil 43 is formed by a winding 46 wound around an outer circumference of a cylindrical core 45 .
- the choke coil 43 is arranged on the holder 31 so that a coil axial direction (longitudinal direction of core 45 ) is parallel to the axial direction of the motor 10 (X-axis direction).
- a coil axial direction longitudinal direction of core 45
- X-axis direction axial direction of the motor 10
- the end surface directed toward the base 34 of the holder 31 will be referred to as a first end surface 45 a
- the end surface at the opposite side will be referred to as a second end surface 45 b .
- the portion closer to the first end surface 45 a in the X-axis direction will be referred to as a lower side
- the portion closer to the second end surface 45 b will be referred to as an upper side.
- the holder 31 includes a choke coil holding portion 51 extending from the base 34 in the axial direction (X-axis direction).
- the choke coil holding portion 51 which is arcuate and in conformance with the outer circumferential surface of the choke coil 43 , includes a guide surface 52 and a holding piece 53 .
- the guide surface 52 guides the choke coil 43 when coupled.
- the holding piece 53 opposes the guide surface 52 with the choke coil 43 located in between.
- the holding piece 53 is a flexible member extended from the base 34 and is configured to elastically press the choke coil 43 against the guide surface 52 .
- the choke coil holding portion 51 sandwiches and holds the choke coil 43 with the guide surface 52 and the holding piece 53 .
- a first terminal wire 46 a extends from an upper end of the winding 46 of the choke coil 43 and connects to the first terminal member 41 .
- a second terminal wire 46 b extends from a lower end of the winding 46 and connects to the second terminal member 42 . That is, the first terminal member 41 and the second terminal member 42 are electrically connected to each other via the winding 46 of the choke coil 43 .
- the first terminal member 41 and the second terminal member 42 are formed by stamping a metal sheet. Further, the first terminal member 41 and the second terminal member 42 are connected to each other before being coupling to the holder 31 (holder main body 32 ). After being coupled to the holder 31 , the first terminal member 41 and the second terminal member 42 are cut and separated at a predetermined location (cut portion C) (refer to FIG. 3 etc.).
- FIGS. 4A, 4B, and 4C show a state before the cut portion C is cut (before being coupled to holder 31 ), that is a state in which the first and second terminal members 41 and 42 are connected to each other.
- FIG. 4A is a diagram showing a rear side of the first and second terminal members 41 and 42 and the choke coil 43 of FIG. 3 .
- the first terminal member 41 includes a first section 61 and a second section 62 .
- the first section 61 is located at an upper part of the core 45 (side opposite to base 34 in the axial direction).
- the second section 62 extends downward from the first section 61 (extends toward base 34 in the axial direction).
- the first section 61 is mainly plate-like and disposed parallel to the XY-plane. Further, the first section 61 extends in a direction orthogonal to the longitudinal direction of the core 45 (Y-axis direction).
- the first section 61 includes a first connecting portion 63 (brush-side connecting portion) and a coil-side connecting portion 64 .
- the first connecting portion 63 is connected to a pigtail 38 a (first circuit component).
- the coil-side connecting portion 64 is connected to the first terminal wire 46 a of the winding 46 (choke coil 43 ).
- the first connecting portion 63 and the coil-side connecting portion 64 may employ a connection method such as welding, heat staking, or soldering.
- the first section 61 includes an opposing portion 65 between the first connecting portion 63 and the coil-side connecting portion 64 , and the opposing portion 65 opposes the second end surface 45 b of the core 45 in the axial direction (X-axis direction).
- the second section 62 extends from the opposing portion 65 of the first section 61 toward the core 45 in the X-axis direction and is bent in a crank-shaped manner in the Z-axis direction.
- the second section 62 includes a fastening portion 66 at a distal end, which opposes the holder 31 , and a contact portion 67 at an intermediate part.
- the second section 62 includes an extension portion 68 extending from the opposing portion 65 of the first section 61 toward the core 45 in the X-axis direction. Further, a lower end of the extension portion 68 is bent in the Z-axis direction to form the contact portion 67 .
- the contact portion 67 is in contact with the second end surface 45 b of the core 45 in the longitudinal direction of the core 45 (X-axis direction).
- the contact portion 67 includes a first extension 67 a and a second extension 67 b .
- the first extension 67 a extends in the Y-axis direction from the lower end of the extension portion 68 , which is bent in the Z-axis direction.
- the second extension 67 b extends from the first extension 67 a in the Z-axis direction.
- An area of contact between the contact portion 67 including the first and second extensions 67 a and 67 b and the second end surface 45 b of the core 45 is set to be greater than or equal to one-half of an entire area of the second end surface 45 b of the core 45 .
- the second extension 67 b of the contact portion 67 is in contact with both regions.
- the distal end (lower end) of the second section 62 includes the fastening portion 66 extending downward in the X-axis direction from a portion extending from the contact portion 67 (first extension 67 a ) in the Z-axis direction (opposite to second extension 67 b ).
- the fastening portion 66 is press-fitted and fixed in the X-axis direction to a fitting portion (not shown) arranged in the holder 31 (holder main body 32 ).
- a positioning portion 69 is arranged on the upper part of the fastening portion 66 and projected from the second section 62 toward opposite sides in the Y-axis direction.
- the positioning portion 69 comes into contact with the holder 31 to determine a press-fit length of the fastening portion 66 .
- the second section 62 includes the extension portion 68 , the contact portion 67 , the fastening portion 66 , and the positioning portion 69 , which are integrated with each other.
- the second terminal member 42 is parallel to the XY-plane and formed from a metal sheet, which is separated from the first terminal member 41 .
- the second terminal member 42 includes a first section 71 arranged next to the first section 61 of the first terminal member 41 in the Y-axis direction.
- the first section 71 is continuous with the first section 61 of the first terminal member 41 before being coupled to the holder 31 .
- the first sections 61 and 71 are cut and separated at the cut portion C.
- a planned cutting portion Cx is indicated by the broken line.
- the second terminal member 42 includes a second connecting portion 72 (thermistor-side connecting portion) that extends downward from the first section 71 in the X-axis direction (toward base 34 ).
- the second connecting portion 72 and the first connecting portion 63 are located at opposite sides of the choke coil 43 . More specifically, in the Y-axis direction, the first connecting portion 63 , the choke coil 43 , and the second connecting portion 72 are arranged in this order. Further, the second connecting portion 72 and the first connecting portion 63 are located on the same plane (XY-plane), which is parallel to the axial direction.
- the second connecting portion 72 is connected to a first terminal 44 a of the thermistor 44 .
- a second terminal 44 b of the thermistor 44 is connected to terminal T that is arranged on the holder 31 .
- the first and second terminals 44 a and 44 b may employ a connection method such as welding, staking, or soldering.
- the terminal T is insert molded integrally with the holder 31 and partially embedded in the holder 31 .
- the terminal T includes one end that is projected from the holder main body 32 in the axial direction and connected to the thermistor 44 and another end that extends through the extension portion 35 to the connector 33 .
- the other end of the terminal T (closer to connector 33 ) is configured to be electrically connected to an external connector (not shown), which is connected to the connector 33 .
- the second terminal member 42 includes an extension 73 that extends downward in the X-axis direction from the second connecting portion 72 .
- a coil-side connecting portion 74 at a lower end of the extension 73 (closer to base 34 in X-axis direction) is connected to the second terminal wire 46 b of the choke coil 43 (winding 46 ) by welding, staking, soldiering, or the like.
- the extension 73 is a plate parallel to the XY-plane.
- the extension 73 is disposed so that a plate surface 73 a of the extension 73 does not oppose the outer circumferential surface of the choke coil 43 .
- the extension 73 has an end surface 73 b arranged to oppose the outer circumferential surface of the choke coil 43 .
- the end surface 73 b of the extension 73 is configured to oppose in the Y-axis direction a central portion of the choke coil 43 with respect to the Z-axis direction.
- the electric component 40 With the electric component 40 , power supplied from the external connecter, which is connected to the connector 33 , sequentially flows to the terminal T, the thermistor 44 , the second terminal member 42 , the choke coil 43 , the first terminal member 41 , the pigtail 38 a , and the brush 38 . That is, the terminal T, the thermistor 44 , the second terminal member 42 , the choke coil 43 , the first terminal member 41 , and the pigtail 38 a define a power feed circuit from the connector 33 to the brush 38 .
- the other electric component (electric component located toward side underneath plane of FIG. 2 ), which is not shown, includes the first terminal member 41 , the second terminal member 42 , and the choke coil 43 (without thermistor 44 ) in the same manner as the electric component 40 located toward upward from the plane of FIG. 2 , and is configured so that the second connecting portion 72 of the second terminal member 42 is connected to a terminal that is embedded in the holder 31 . That is, a power feed circuit from the connector 33 to the brush 38 of the electric component located at the rear side of the plane of the FIG. 2 has a structure in which the thermistor 44 is omitted from the electric component 40 located at the front side.
- a method for manufacturing the brush device 30 (method for coupling the electric component 40 to the holder 31 ) and its operation will now be described.
- a connecting process is performed to connect the first and second terminal members 41 and 42 , before separation from each other, to the choke coil 43 , the thermistor 44 , and the brush 38 (pigtail 38 a ).
- This assembles an assembly P (ASSY component) including the first and second terminal members 41 and 42 , before separation from each other, the choke coil 43 , the thermistor 44 , and the brush 38 (pigtail 38 a ).
- a coupling process is performed to couple the assembly P, which is formed in the connecting process, to the holder main body 32 of the holder 31 .
- the first section 61 of the first terminal member 41 (or first section 71 of second terminal member 42 ) is held by a jig (not shown) such as a chuck.
- the assembly P is coupled to the holder 31 from the first end surface 45 a of the core 45 in the axial direction of the choke coil 43 (X-axis direction).
- the contact portion 67 of the first terminal member 41 is brought into contact with the second end surface 45 b of the core 45 .
- the first end surface 45 a of the core 45 may be in contact with the base 34 of the holder main body 32 in the X-axis direction or may be separated from the base 34 of the holder main body 32 .
- the brush 38 is accommodated in the brush accommodation portion 37 . Further, the second terminal 44 b of the thermistor 44 in the assembly P is connected to the terminal T, which extends from the holder 31 .
- the planned cutting portion Cx is cut to separate the first terminal member 41 and the second terminal member 42 .
- a circuit in which the thermistor 44 and the choke coil 43 are connected in series, is formed from the terminal T to the brush 38 .
- the contact portion 67 of the first terminal member 41 remains in contact with the second end surface 45 b of the core 45 after performing assembling as described above. This releases force such as vibration, which is applied to the first terminal member 41 , from the contact portion 67 toward the choke coil 43 and relieves stress from the connecting portion (coil-side connecting portion 64 ) of the winding 46 of the choke coil 43 and the first terminal member 41 .
- the first terminal member 41 includes the contact portion 67 that is in contact with the second end surface 45 b of the core 45 of the choke coil 43 . This releases force such as vibration, which is applied to the first terminal member 41 , from the contact portion 67 toward the choke coil 43 and relives stress from the connecting portion (coil-side connecting portion 64 ) of the winding 46 of the choke coil 43 and the first terminal member 41 . As a result, breakage or the like of the connecting portion is avoided.
- the method for manufacturing the brush device 30 in the present embodiment includes the connecting process, which connects the winding 46 of the choke coil 43 to the first terminal member 41 , and the coupling process, which couples the assembly P including the choke coil 43 and the first terminal member 41 to the holder 31 from the first end surface 45 a of the core 45 in its axial direction (X-axis direction) subsequent to the connecting process. Then, in the coupling process, the contact portion 67 of the first terminal member 41 is brought into contact with the second end surface 45 b of the core 45 . With this configuration, a reaction force from the holder 31 (choke coil holding portion 51 ) toward the choke coil 43 is received by the contact portion 67 of the first terminal member 41 , which is in contact with the core 45 . This relieves stress from the connecting portion of the winding 46 of the choke coil 43 and the first terminal member 41 . As a result, breakage or the like of the connecting portion is limited.
- the first terminal member 41 includes the first section 61 , which is located at a side opposite to the base 34 with respect to the core 45 in the axial direction (X-axis direction), and the second section 62 , which extends from the first section 61 toward the base 34 in the axial direction and has the contact portion 67 .
- the first section 61 of the first terminal member 41 is held with a jig such as a chuck for coupling, the first section 61 is located at a side opposite to the base 34 with respect to the core 45 .
- the jig can easily hold the first section 61 of the first terminal member 41 .
- the first section 61 includes the opposing portion 65 , which opposes the second end surface 45 b of the core 45 in the axial direction (X-axis direction), and the second section 62 is extended from the opposing portion 65 .
- the second section 62 includes the fastening portion 66 that is fitted and fixed to the holder 31 .
- the second section 62 includes the contact portion 67 and the fastening portion 66 that are integrated with each other. This allows the first terminal member 41 to be reduced in size.
- the power feed circuit extending from the connector 33 to the brush 38 includes the first terminal member 41 , which is connected to the first terminal wire 46 a of the choke coil 43 (winding 46 ), and the second terminal member 42 , which is connected to the second terminal wire 46 b at the opposite side.
- the first terminal member 41 includes the first connecting portion 63 connected to the pigtail 38 a of the brush 38
- the second terminal member 42 includes the second connecting portion 72 connected to the thermistor 44 .
- the first connecting portion 63 and the second connecting portion 72 are locate at opposite sides of the choke coil 43 .
- the part that is connected to the first terminal wire 46 a of the choke coil 43 portion from first terminal wire 46 a to brush 38
- the part that is connected to the second terminal wire 46 b in the power feed circuit portion from second terminal wire 46 b to end closer to connector 33 of terminal T
- the electric component located toward the side underneath the plane of FIG. 2 also has the same advantages as the electric component 40 shown in FIG. 2 .
- first connecting portion 63 of the first terminal member 41 is connected to the pigtail 38 a of the brush 38
- second connecting portion 72 of second terminal member 42 is connected to the thermistor 44 (or terminal extending from holder 31 ).
- the second terminal member 42 includes the extension 73 , which is plate-like and extends in the axial direction of the choke coil 43 (X-axis direction), and the extension 73 is disposed so that the plate surface 73 a of the extension 73 does not oppose the choke coil 43 .
- This configuration restricts the flow of bypassing noise between the extension 73 of the second terminal member 42 and the choke coil 43 .
- noise that flows from the brush 38 to the connector 33 is further reduced.
- the double-dashed lines (extension 73 x ) in FIG. 5 when the plate surface of the extension 73 x opposes the outer circumferential surface of the choke coil 43 , bypassing noise easily flows between the extension 73 of the second terminal member 42 and the choke coil 43 . This is not preferable.
- the first connecting portion 63 and the second connecting portion 72 are arranged on the same plane that is parallel to the axial direction (XY-plane). In this manner, the brush device 30 as well as the motor 10 can be reduced in size in a direction orthogonal to the axis.
- the present embodiment may be modified as follows.
- the present embodiment and the following modifications can be combined as long as the combined modifications remain technically consistent with each other.
- the fastening portion 66 and the contact portion 67 are integrated with each other and included in the second section 62 .
- the configuration is not particularly limited in such a manner.
- the first terminal member 41 shown in FIGS. 6A, 6B, and 6C includes a third section 81 and a fastening portion 82 .
- the third section 81 extends downward from the first section 61 (extends toward base 34 in the axial direction) and is separate from the second section 62 , which includes the contact portion 67 .
- the third section 81 has the fastening portion 82 to be fastened to the holder 31 .
- the fastening portion 82 is press-fitted and fixed in the X-axis direction to a fitting portion (not shown) arranged in the holder main body 32 .
- the positioning portion 69 is formed at the upper part of the fastening portion 82 in the same manner as the above embodiment.
- the second terminal member 42 may include a contact portion that is in contact with the second end surface 45 b of the core 45 .
- the end surface 73 b of the extension 73 of the second terminal member 42 is configured to oppose the central portion of the choke coil 43 with respect to the Z-axis direction in the Y-axis direction.
- one end of the extension 73 y may be configured to oppose an end of the choke coil 43 with respect to the Z-axis direction in the Y-axis direction.
- the plane surface of the extension 73 y does not oppose the choke coil 43 because of the position of the extension 73 y . This restricts the flow of bypassing noise between the extension 73 y and the choke coil 43 .
- the choke coil 43 in the power feed circuit from the connector 33 (upstream side) to the brush 38 (downstream side), the choke coil 43 is located at a downstream side of the thermistor 44 (between thermistor 44 and brush 38 ).
- the choke coil 43 may be located at an upstream side of the thermistor 44 (between connector 33 and thermistor 44 ).
- the second connecting portion 72 of the second terminal member 42 which is connected to the second terminal wire 46 b of the choke coil 43
- the first connecting portion 63 of the first terminal member 41 which is connected to the first terminal wire 46 a of the choke coil 43
- is connected to the second terminal 44 b of the thermistor 44 is connected to the second terminal 44 b of the thermistor 44 .
- the first terminal 44 a of the thermistor 44 is connected to the pigtail 38 a , for example, via a terminal member.
- the first connecting portion 63 of the first terminal member 41 and the second connecting portion 72 of the second terminal member 42 are located at opposite sides of the choke coil 43 as viewed in the axial direction (X-axis direction)
- the part that is connected to the first terminal wire 46 a of the choke coil 43 in the power feed circuit is spaced apart from the part that is connected to the second terminal wire 46 b in the power feed circuit. This restricts the flow of bypassing noise between the two parts in the circuit.
- the thermistor 44 may be omitted, and the second connecting portion 72 of second terminal member 42 may be connected to the terminal T serving as the second circuit component. Further, instead of the thermistor 44 , a dummy member (having same shape as thermistor 44 ) may be arranged to simply connect the second terminal member 42 and the terminal T.
- the second terminal member 42 in the above embodiment is cut and separated from the first terminal member 41 after being coupled to the holder 31 .
- the second terminal member 42 may be separated from the first terminal member 41 before being coupled to the holder 31 .
- the choke coil 43 includes the core 45 and the winding 46 .
- the choke coil 43 may have a hollow structure that does not include the core 45 .
- the number of the brushes 38 of the motor 10 is not limited to two like in the above embodiment, and may be three or more. Consequently, the number of the choke coils 43 and the number of the terminal members may be changed in accordance with the number of the brushes 38 .
- the motor 10 includes the reduction gear 12 .
- the motor 10 may include only the motor main body 11 , and the reduction gear 12 may be omitted.
- the motor 10 is used as a drive source for an electric seat device of a vehicle.
- the motor 10 may be used as a drive source for other devices installed in a vehicle (power window device, wiper device, sliding roof device, sliding door device, door closer device, and the like). Further, the motor 10 may be applied to a motor that is not for use with a vehicle.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Manufacturing & Machinery (AREA)
- Motor Or Generator Current Collectors (AREA)
Abstract
Description
Claims (4)
Applications Claiming Priority (7)
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JP2018-017450 | 2018-02-02 | ||
JPJP2018-017450 | 2018-02-02 | ||
JP2018017451A JP2019134651A (en) | 2018-02-02 | 2018-02-02 | Brush device and motor |
JP2018-017451 | 2018-02-02 | ||
JPJP2018-017451 | 2018-02-02 | ||
JP2018017450A JP2019134650A (en) | 2018-02-02 | 2018-02-02 | Brush device, motor and manufacturing method for brush device |
PCT/JP2019/002580 WO2019151161A1 (en) | 2018-02-02 | 2019-01-25 | Brush device, motor, and method for manufacturing brush device |
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US20210067008A1 US20210067008A1 (en) | 2021-03-04 |
US11515759B2 true US11515759B2 (en) | 2022-11-29 |
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US16/957,548 Active 2039-07-13 US11515759B2 (en) | 2018-02-02 | 2019-01-25 | Brush device, motor, and method for manufacturing brush device |
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US (1) | US11515759B2 (en) |
CN (1) | CN111656653B (en) |
WO (1) | WO2019151161A1 (en) |
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JP2017169351A (en) | 2016-03-16 | 2017-09-21 | アスモ株式会社 | Manufacturing method of brush device |
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JP3792282B2 (en) * | 1995-02-17 | 2006-07-05 | 本田技研工業株式会社 | Vehicle starter and generator |
CN101078387A (en) * | 2006-05-24 | 2007-11-28 | 株式会社电装 | Motor and fuel pump |
JP5185676B2 (en) * | 2008-03-28 | 2013-04-17 | アスモ株式会社 | Brush holder and method for manufacturing brush holder |
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- 2019-01-25 WO PCT/JP2019/002580 patent/WO2019151161A1/en active Application Filing
- 2019-01-25 US US16/957,548 patent/US11515759B2/en active Active
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Also Published As
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WO2019151161A1 (en) | 2019-08-08 |
CN111656653B (en) | 2022-11-29 |
US20210067008A1 (en) | 2021-03-04 |
CN111656653A (en) | 2020-09-11 |
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